JP2011097362A - Image processing apparatus, image data output processing apparatus, and image processing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To synthesize document image data with superposition image data so as to appropriately draw a superposition image irrespective of drawing size of a document image. <P>SOLUTION: The image processing apparatus is provided with: a self-similar image storage section 13 which stores a pattern of a self-similar image; a superposition image data generation section 15 which generates the superposition image data consisting of the self-similar image based on the pattern of the self-similar image; an image synthesizing section 17 which synthesizes the document image data with the superposition image data; and a control section 11 which controls operations of the respective sections, wherein the superposition image data generation section 15 shapes the pattern of the self-similar image so that the size of the superposition image is set corresponding to drawing size of the document image to be determined by the control section 11. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an image processing apparatus and an image processing method for synthesizing superimposed image data, which is image data of a superimposed image drawn by superimposing the original image on image data of a document image.

  2. Description of the Related Art Conventionally, a technique for drawing (displaying or printing) a predetermined image (for example, a digital watermark image or a tint block pattern) superimposed on image data of an original image is known.

  For example, in Patent Document 1, a plurality of digital watermarks are generated using different keys depending on the characteristics of the content or the passage of time and embedded in a processing target signal, so that the characteristics of the content are extracted in a legitimate detection device. In this technology, accurate digital watermark detection can be efficiently performed, while it is impossible for a third party who does not know a plurality of keys to perform digital watermark detection processing from a digital watermark embedded signal. ing.

JP 2002-320085 A (published October 31, 2002)

  However, in the technique disclosed in Patent Document 1, when the image data of the original image and the digital watermark are drawn in a superimposed manner, the shape and size of the digital watermark image depends on the drawing size (magnification ratio or aspect ratio) of the original image. Since they are different, it may be difficult to determine whether the image is a predetermined digital watermark image.

  When a copy-forgery-inhibited pattern is superimposed on a document image, the shape and size of the copy-forgery-inhibited pattern differ depending on the drawing size of the document image, which may impair the design.

  The present invention has been made in view of the above-described problems, and an object of the present invention is to synthesize superimposed image data that is image data of a superimposed image drawn by superimposing the original image on image data of the original image. In the processing device, the original image data and the superimposed image data are combined so that the superimposed image can be appropriately drawn regardless of the drawing size of the original image.

  In order to solve the above problems, an image processing apparatus according to the present invention synthesizes superimposed image data that is image data of a superimposed image that is drawn by being superimposed on the document image data that is image data of a document image. An image processing apparatus, at least one of a self-similar image storage unit that stores a pattern of a self-similar image and a self-similar image detection unit that detects a pattern of a self-similar image combined with the document image data; A superimposed image data generating unit configured to generate the superimposed image data including the self-similar image based on a pattern of the self-similar image; and an image combining unit configured to generate combined image data obtained by combining the document image data and the superimposed image data. And a size determination unit that determines a drawing size of the document image when drawing the document image, and the superimposed image data generation unit Is characterized in that to generate the superimposed image data by the size of the superimposed image is to shape the pattern of the self-similar image so as to size according to the drawing size.

  According to the above configuration, the superimposed image data generation unit shapes the superimposed image pattern by shaping the pattern of the self-similar image so that the size of the superimposed image becomes a size corresponding to the drawing size of the document image determined by the size determination unit. Data is generated, and the image synthesis unit generates synthesized image data obtained by synthesizing the document image data and the superimposed image data. Thereby, it is possible to synthesize a superimposed image in which the size and shape of the minute portion are substantially constant regardless of the drawing size of the document image.

  Further, the superimposed image data generation unit may be configured to shape the pattern of the self-similar image so that the shape and size of a minute portion included in the superimposed image are constant regardless of the drawing size.

  According to the above configuration, it is possible to synthesize a superimposed image in which the size and shape of the minute portion are constant regardless of the drawing size of the document image.

  The image composition unit may be configured to synthesize the superimposed image data with the document image so that the superimposed image is rendered as a background image when the document image is rendered.

  According to the above configuration, a self-similar image in which the size and shape of the minute portion is constant can be drawn as the background image regardless of the drawing size of the document image, so that it is included in the background image depending on the drawing size of the document image. It can be prevented that the shape and size of the minute portions are different and the design of the background image is not impaired.

  Further, the image composition unit may be configured to synthesize the superimposed image data with the original image data as an electronic watermark image that cannot be viewed by a user from an image drawn based on the composite image data.

  According to the above configuration, a self-similar image in which the size and shape of a minute part is constant can be drawn as a digital watermark image regardless of the drawing size of the original image. It can be prevented that the shape and size of the included minute portion are different and it is difficult to determine whether or not the image is a predetermined digital watermark image.

  A self-similar image storage unit storing a self-similar image pattern; and the superimposed image data generation unit stores the superimposed image data based on the self-similar image pattern read from the self-similar image storage unit. It is good also as composition to generate.

  According to the above configuration, the pattern of the self-similar image stored in advance in the self-similar image storage unit is shaped according to the drawing size of the original image, so that the size of the minute portion can be obtained regardless of the drawing size of the original image. In addition, a superimposed image having a substantially constant shape can be easily combined with a document image. In addition, since the superimposed image is generated based on the pattern of the self-similar image stored in advance, the superimposed image data can be generated with a simple algorithm, and the configuration of the image processing apparatus can be simplified. .

  A self-similar image detecting unit configured to detect a pattern of the self-similar image synthesized with the document image data, and the superimposed image data generating unit includes a pattern of the self-similar image. Is detected, the superimposed image data is generated based on the pattern of the self-similar image, and the image composition unit generates the superimposed image data instead of the self-similar image superimposed on the document image data. The superimposed image data generated by the copying unit may be superimposed on the original image data.

  According to the above configuration, the pattern of the self-similar image originally synthesized with the document image is detected, and the self-similar image corresponding to the detected pattern of the self-similar image is detected regardless of the drawing size of the document image. It can be generated so that the size and shape are substantially constant and can be combined with the original image. Therefore, for example, even when a magnification copy (enlarged copy or reduced copy) of an original or an aspect ratio change is performed, a self-similar image included in the original original is converted into a magnification ratio of the original image or a vertical and horizontal ratio of the original image. Drawing can be performed so that the size and shape of the minute portion are substantially constant regardless of the ratio.

  A self-similar image detecting unit configured to detect a pattern of the self-similar image synthesized with the document image data, and the superimposed image data generating unit includes a pattern of the self-similar image. When the image is detected, the superimposed image data may be generated based on the self-similar image pattern stored in the self-similar image storage unit with the self-similar image pattern corresponding to the self-similar image pattern. Good.

  According to the above configuration, the pattern of the self-similar image originally synthesized with the document image is detected, and the self-similar image corresponding to the detected pattern of the self-similar image is detected regardless of the drawing size of the document image. It can be generated so that the size and shape are substantially constant and can be combined with the original image. Further, for example, even when a part of a pattern of a self-similar image detected from a document image is missing or deformed due to reading accuracy at the time of document reading, the self-similar image Since the pattern of the self-similar image corresponding to the pattern can be read from the self-similar image storage unit and used, the self-similar image can be drawn more appropriately.

  The image data output processing device of the present invention includes any one of the above-described image processing devices and an image output unit that draws an image corresponding to the composite image data combined by the image processing device.

  According to the above configuration, it is possible to draw (print or display) an image in which a superimposed image in which the size and shape of a minute portion are substantially constant regardless of the drawing size of the document image is superimposed on the document image.

  An image processing method according to the present invention is an image processing method for combining superimposed image data, which is image data of a superimposed image that is drawn superimposed on the original image data, on original image data, which is image data of the original image. Based on a size determination step for determining the drawing size of the original image when drawing an image, and a self-similar image pattern stored in advance or a self-similar image pattern previously synthesized with the original image data The superimposed image data generation step includes a superimposed image data generation step for generating the superimposed image data composed of self-similar images, and an image composition step for generating composite image data by combining the document image data and the superimposed image data. In the process, the self-similar image pattern is shaped so that the size of the superimposed image becomes a size corresponding to the drawing size. It is characterized by generating the superimposed image data by.

  According to the above method, the superimposed image data is generated by shaping the pattern of the self-similar image so that the size of the superimposed image becomes a size corresponding to the drawing size of the document image, and the document image data, the superimposed image data, To generate composite image data. Thereby, it is possible to synthesize a superimposed image in which the size and shape of the minute portion are substantially constant regardless of the drawing size of the document image. Therefore, it is possible to prevent the superimposed image from being appropriately detected depending on the drawing size of the original image, or the design of the superimposed image from being impaired.

  As described above, the image processing apparatus of the present invention includes a self-similar image storage unit that stores a pattern of a self-similar image and a self-similar image detection unit that detects a pattern of a self-similar image pre-synthesized with the document image data. A superimposed image data generation unit that generates the superimposed image data including the self-similar image based on the pattern of the self-similar image, and a composite image obtained by combining the document image data and the superimposed image data An image composition unit that generates data; and a size determination unit that determines a drawing size of the original image when the original image is drawn, wherein the superimposed image data generation unit has the size of the superimposed image as the drawing size. The superimposed image data is generated by shaping the pattern of the self-similar image so as to have a size according to the above.

  The image processing method of the present invention is an image processing method for combining superimposed image data that is image data of a superimposed image that is drawn by being superimposed on the document image data that is image data of a document image. Based on a size determination step for determining the drawing size of the original image when drawing the original image, and a self-similar image pattern stored in advance or a self-similar image pattern synthesized with the original image data A superimposed image data generating step for generating the superimposed image data composed of self-similar images, and an image combining step for generating combined image data obtained by combining the document image data and the superimposed image data. In the generation step, the self-similar image pattern is shaped so that the size of the superimposed image becomes a size corresponding to the drawing size. Generating the superimposed image data by the.

  According to the above image processing apparatus and image processing method, it is possible to synthesize a superimposed image in which the size and shape of a minute portion are substantially constant regardless of the drawing size of the document image. Therefore, it is possible to prevent the superimposed image from being appropriately detected depending on the drawing size of the original image, or the design of the superimposed image from being impaired.

1 is a block diagram illustrating a schematic configuration of an image processing apparatus according to an embodiment of the present invention and an image forming apparatus including the image processing apparatus. (A)-(d) is explanatory drawing which shows an example of the self-similar image superimposed on original image data in the image processing apparatus shown in FIG. 3 is a flowchart showing a flow of processing in the image processing apparatus shown in FIG. 1. (A)-(c) is explanatory drawing which shows an example of an output image at the time of copying the image on which the self-similar image was superimposed as a tint block pattern. It is explanatory drawing which shows the other example of an output image at the time of copying the image on which the self-similar image was superimposed as a tint block pattern. (A)-(d) is explanatory drawing for demonstrating the process in the case of superimposing a self-similar image as a digital watermark image.

  An embodiment of the present invention will be described.

  FIG. 1 is a block diagram illustrating a schematic configuration of an image forming apparatus (image data output processing apparatus) 1 including an image processing apparatus 3 according to the present embodiment. As shown in FIG. 1, the image forming apparatus 1 includes an image input device 2, an image processing device 3, an image output device (image output unit) 4, a communication device 5, an operation panel 6, and a main control unit 7. .

  The image input device 2 reads an image of a document and generates document image data. For example, a scanner unit (not shown) having a device for converting optical information into an electrical signal such as a CCD (Charge Coupled Device). It is made up of. In the present embodiment, the image input device 2 outputs image data based on a reflected light image from a document to the image processing device 3 as RGB (R: red, G: green, B: blue) document image data.

  The image processing device 3 converts the document image data input from the image input device 2 into image data corresponding to the output processing in the image output device 4, and also superimposes image data composed of self-similar images to the document image data. The synthesized image data obtained by synthesizing the superimposed image data is generated and output to the image output device 4. Details of the image processing apparatus 3 will be described later.

  The image output device 4 prints (draws) the image input from the image processing device 3 on a recording material. The configuration of the image output apparatus 4 is not particularly limited, and may be, for example, an electrophotographic image forming apparatus or an inkjet image forming apparatus.

  The image output device 4 is not limited to a configuration that prints an image according to image data on a recording material, and may be configured to display (draw) an image according to image data on a display device. As the display device, for example, a liquid crystal display, a plasma display, an organic EL display, a CRT, or the like can be used.

  The communication device 5 is composed of a modem or a network card, for example. The communication device 5 performs data communication with other devices (for example, personal computers, server devices, display devices, other digital multifunction devices, facsimile devices, etc.) connected to the network via a network card, a LAN cable, or the like.

  When the image data is transmitted, the communication device 5 performs the transmission procedure with the other party and secures a state in which transmission is possible. The image data output from the image processing device 3 is transmitted to the other party via the communication line. Sequentially. Note that, when transmitting image data, the image processing apparatus 3 reads image data to be transmitted from a memory (a composite image storage unit 19 described later), and the image file generation unit 18 described later needs to change the compression format. Processes and sequentially transmits to the other party via the communication line.

  Further, when receiving the image data, the communication device 5 performs a communication procedure, receives the image data transmitted from the other party, and inputs it to the image processing device 3 as document image data. The image processing device 3 (original image processing unit 12 described later) performs predetermined processing such as expansion processing, rotation processing, resolution conversion processing, output gradation correction, and gradation reproduction processing on the original image data input from the communication device 5. The superimposed image data is combined with the original image data and output to the image output device 4.

  The operation panel (operation input unit) 6 includes, for example, a display unit such as a liquid crystal display and an input unit such as a setting button (both not shown), and responds to an instruction from the main control unit 7 of the image forming apparatus 1. Information is displayed on the display unit, and information input from the user via the input unit is transmitted to the main control unit. The user can input various instructions to the image forming apparatus 1 via the operation panel 6.

  The main control unit 7 includes, for example, a CPU (Central Processing Unit) and the like. Based on a program stored in a ROM (not shown), various data, information input from the operation panel 6, and the like, Control the behavior.

  Next, details of the image processing apparatus 3 will be described. As shown in FIG. 1, the image processing apparatus 3 includes a control unit 11, a document image processing unit 12, a self-similar image storage unit 13, a self-similar image selection unit 14, a superimposed image data generation unit 15, and a self-similar image detection unit. 16, an image composition unit 17, an output file generation unit 18, and a composite image storage unit 19.

  The control unit 11 controls the operation of each unit of the image processing apparatus 3 in accordance with an instruction from the user input from the operation panel 6 via the main control unit 7 and a control command from the main control unit 7. In addition, you may make it input the instruction | indication from a user directly to the control part 11 from the operation panel 6. FIG. The control unit 11 may be provided as a part of the main control unit 7, may be provided separately from the main control unit 7, and may operate in cooperation with the main control unit 7.

  The document image processing unit 12 performs various types of image processing on the document image data input from the image input device 1 or the communication device 5 to make the data suitable for image output processing in the image output device 4. For example, A / D conversion processing, shading correction processing, color balance adjustment processing, signal conversion processing, image quality adjustment processing, tilt correction processing, top and bottom correction processing, image extraction processing are performed on image data input from the image input apparatus 1. , Color conversion processing, black generation and under color removal processing, spatial filter processing, halftone generation processing, and output tone correction processing. The document image processing unit 12 performs an expansion process, a rotation process, a resolution conversion process, an output gradation correction, a gradation reproduction process, and the like on the image data input from the communication device 5.

  The self-similar image storage unit 13 stores a plurality of types of self-similar image patterns. Here, the self-similar image is such that each minute portion in the image is similar to the whole of the image, and the same shape as the original image appears even when scaling processing (enlargement processing or reduction processing) is performed. A geometric figure having a structure, also called a fractal geometric image.

  As a self-similar image, for example, a Leaf curve shown in FIG. 2A, a binary tree curve (Tree curve) shown in FIG. 2B, a Koch curve (Koho curve) shown in FIG. A Sierpinski Gasket curve (Gasket curve) shown in d) is known.

  When the self-similar image selection unit 14 synthesizes the self-similar image as a superimposed image with the original image data on which the self-similar image is not superimposed, the self-similar image pattern corresponding to the instruction from the control unit 11 is self-similar. The self-similar image pattern stored in the image storage unit 13 is selected, and the selected self-similar image pattern is read from the self-similar image storage unit 13 and output to the superimposed image data generation unit 15. For example, the control unit 11 controls the self-similar image selection unit 14 so as to select a pattern of a self-similar image desired by the user (a self-similar image selected by the user via the operation panel 6). Alternatively, the control unit 11 may determine the pattern of the self-similar image based on a predetermined condition (for example, the type of the document image) and control the self-similar image selection unit 14 to select the determined pattern. Good.

  Further, the self-similar image selection unit 14 performs self-similar image detection from the document image data by the self-similar image detection unit 16 when performing scaling processing on the document image data in which the self-similar image has already been synthesized. A self-similar image pattern corresponding to the pattern is selected from the self-similar image patterns stored in the self-similar image storage unit 13, and the selected self-similar image pattern is read from the self-similar image storage unit 13. The data is output to the superimposed image data generation unit 15. In the present embodiment, the self-similar image pattern corresponding to the self-similar image combined with the document image data is read from the self-similar image storage unit 13 and used, but the present invention is not limited to this. For example, the self-similar image detection unit 16 inputs the pattern of the self-similar image detected from the document image data to the superimposed image data generation unit 15, and the superimposed image data generation unit 15 inputs the self-similar image detection unit 16 from the self-similar image detection unit 16. The superimposed image data may be generated by shaping the pattern of the similar image.

  The superimposed image data generation unit 15 scales (shapes) the pattern of the self-similar image input from the self-similar image selection unit 14 into a size corresponding to the drawing size of the original image, thereby superimposing image data including the self-similar image. Is output to the image composition unit 17. The drawing size of the document image is based on, for example, an instruction from the user input by the control unit (size determining unit) 11 via the operation panel 6 or a control command received from another device via the communication device 5. To decide. Alternatively, the document image type and the drawing size may be associated in advance, and the control unit 11 may determine the drawing size according to the document image type.

  The self-similar image detection unit 16 determines whether or not a self-similar image is synthesized with the document image data input from the image input device 2 or the communication device 5. Detect the pattern. Then, the detected self-similar image pattern or information for specifying the self-similar image pattern (for example, the feature amount of the detected self-similar image) is transmitted to the self-similar image selection unit 14. Whether or not the self-similar images are synthesized is determined by, for example, matching the graphic pattern included in the background area of the document image with the pattern of each self-similar image stored in the self-similar image storage unit 13. What is necessary is just to determine by doing. In addition, when a self-similar image is synthesized as a digital watermark image, the digital watermark image is detected using a conventionally known digital watermark image detection method, and the pattern included in the detected digital watermark image is self-similar. What is necessary is just to determine by matching with the pattern of each self-similar image memorize | stored in the image memory | storage part 13. FIG.

  The image composition unit 17 synthesizes the document image data input from the document image processing unit 12 and the superimposed image data (image data composed of self-similar images) input from the superimposed image data generation unit 15, thereby producing a document image. And composite image data of the self-similar image is generated and output to the output file generation unit 18. When the image data of the self-similar image is already superimposed on the document image data input from the document image processing unit 12, the superimposed image data generation is performed instead of the already superimposed self-similar image data. The image data of the self-similar image input from the unit 15 is superimposed.

  The output file generation unit 18 processes the composite image data input from the image composition unit 17 according to the format of the image file handled in the image output device 4 (for example, layout information, modification information, and the like in the header portion of the file). The output file is generated by performing an addition process and the like and output to the image output device 4.

  The synthesized image data synthesized by the image synthesizing unit 17 is stored in the synthesized image storage unit 19, and the output file generating unit 18 reads the synthesized image data as necessary to generate an output file, and outputs the image. You may make it output to an apparatus.

  Next, the flow of processing in the image processing unit 3 will be described with reference to the flowchart shown in FIG.

  First, when document image data is input to the image processing device 3, the control unit 11 controls the document image processing unit 12 to convert the document image data into data suitable for image output processing in the image output device 4. Various image processings are executed (S1), and the self-similar image detection unit 16 is controlled to determine whether or not the self-similar image is superimposed on the document image data (S2).

  When it is determined that the self-similar image is not superimposed, the control unit 11 stores the self-similar image to be superimposed on the document image data in the self-similar image storage unit 13 in the self-similar image selection unit 14. A self-similar image is selected (S3). For example, the user may instruct selection of a self-similar image via the operation panel 6, and the self-similar image selection unit 14 may select the self-similar image in response to the selection instruction. Alternatively, the type of document image and the self-similar image to be superimposed may be associated in advance, and the self-similar image selection unit 14 may select the self-similar image according to the type of document image.

  On the other hand, when it is determined that the self-similar image is superimposed, the control unit 11 causes the self-similar image detection unit 16 to detect the pattern of the self-similar image combined with the document image data (S4). The control unit 11 stores a self-similar image pattern corresponding to the self-similar image pattern detected by the self-similar image detection unit 16 in the self-similar image storage unit 13 in the self-similar image selection unit 14. A self-similar image pattern is selected (S5).

  Thereafter, the control unit 11 causes the superimposed image data generation unit 15 to display the self-similar image having the same pattern as the pattern of the self-similar image selected in S3 or S5 regardless of the drawing size (magnification ratio, aspect ratio) of the document image. Is drawn, that is, the shape and size of the minute portion included in the self-similar image are shaped so as to be constant regardless of the drawing size (S6).

  For example, a plurality of scaling factors of a self-similar image in which the shape and size of a small part included in the self-similar image are constant are stored in advance, and the entire self-similar image is selected from the stored scaling factors. A self-similar image read out from the self-similar image storage unit 13 may be subjected to a scaling process by selecting a scaling factor that is closest to the size of the output image. Alternatively, a plurality of self-similar image patterns in which the shape and size of a small part included in the self-similar image are constant are stored in advance, and the entire size of the self-similar image is output from the stored patterns. The image closest to the size of the image may be selected and read from the self-similar image storage unit 13, and the read pattern of the self-similar image may be used as the superimposed image data. If the size of the self-similar image after scaling or the pattern size of the read self-similar image does not match the size of the superimposed image corresponding to the drawing size of the original image, the surplus portion of the self-similar image is It may be deleted or a part of the self-similar image may be copied to the lacking part of the self-similar image.

  Then, the control unit 11 controls the image composition unit 17 to synthesize the document image data output from the document image processing unit 12 and the superimposed image data output from the superimposed image data generation unit 15 (S7). For example, the superimposed image may be composed so as to be drawn as a copy-forgery-inhibited pattern (background image) in a blank portion of the original image, and is synthesized and drawn as a digital watermark image that is difficult to view from the drawn image. The self-viewed image synthesized as the digital watermark image on the document image may be detected by applying predetermined image processing (digital watermark image detection processing) to the image.

  Thereafter, the control unit 11 causes the output file generation unit 18 to generate an output file obtained by processing the combined image data combined by the image combining unit 17 into a file format handled by the image output device 4 (S8). The output file is rendered (printed or displayed) on the image output device 4 (S9), and the process is terminated.

  As described above, the image processing apparatus 3 according to the present embodiment includes the self-similar image storage unit 13 that stores the pattern of the self-similar image, and the superimposed image data including the self-similar image based on the pattern of the self-similar image. A superimposition image data generation unit 15 to be generated and an image composition unit 17 that combines the original image data and the superimposition image data are provided, and the control unit 11 detects a drawing size of the original image when drawing the original image. Then, the superimposed image data generation unit 15 shapes the pattern of the self-similar image so that the size of the superimposed image becomes a size corresponding to the drawing size of the document image, and generates superimposed image data.

  Thereby, it is possible to synthesize a superimposed image in which the size and shape of the minute portion are substantially constant regardless of the drawing size of the document image. Therefore, it is possible to prevent the superimposed image from being appropriately detected depending on the drawing size of the original image, or the design of the superimposed image from being impaired.

  FIGS. 4A to 4C show a case where original image data in which a Shellpinsky Gasket curve (self-similar image) is superimposed as a copy-forgery-inhibited pattern is copied at the same magnification, or is reduced to 50%. 4 is an explanatory diagram illustrating an example of an output image when an enlarged copy is made to 200%. FIG. As shown in these figures, regardless of the scaling factor of the output image, the self-similar image included in the output image always has a minute portion of the same size and shape (the triangle indicated by the symbol C in these figures). Part). 4A to 4C show the case of original image data in which a Shellpinsky Gasket curve is superimposed as the tint block pattern, but also when other self-similar images are used. Similar results are obtained. FIG. 5 shows an example of document image data in which a binary tree curve (self-similar image) is superimposed as a tint block pattern.

  Note that the method for superimposing the superimposed image data composed of the self-similar image on the document image data is not particularly limited, and a conventionally known method can be used. For example, you may make it add the value corresponding to the pixel value of the pixel of the superimposition image data corresponding to the said pixel to the pixel value of each pixel of original image image data. Alternatively, when the original image data and the superimposed image data are stored in different layers of the image file after associating the positional relationship of each pixel in both the image data, and when drawing an image corresponding to the image file, The image corresponding to the document image data and the image corresponding to the superimposed image data may be superimposed and drawn.

  Further, as described above, the self-similar image can be combined with the original image as a digital watermark image so that the self-similar image cannot be visually recognized from the drawn image. FIG. 6A to FIG. 6D are explanatory diagrams illustrating an example of processing in the image combining unit 17 when combining a self-similar image as a digital watermark image.

  6A shows original image data (RGB color space image data), and FIG. 6B shows self-similar image data (RGB color space image) to be superimposed on the original image data of FIG. 6A. Data).

  First, the image composition unit 17 performs spatial frequency conversion processing (for example, DCT conversion or Fourier conversion) and color space conversion processing (for example, Lab conversion or LCC conversion) on the original image data shown in FIG. Apply. FIG. 6C shows a plain image (Lab color space image data) of a document image after color space conversion processing.

  Next, the image composition unit 17 superimposes (synthesizes) the image data of the self-similar image on the document image data after the color space conversion processing. FIG. 6D shows an image in which a self-similar image is superimposed on the plain image of the document image shown in FIG.

  Thereafter, the image composition unit 17 performs reverse color conversion processing of the color conversion processing applied to the original image data in FIG. 6A on the composite image data in which the self-similar image is superimposed, and the composite image in the RGB color space. Generate data. FIG. 6E shows the composite image data obtained by the reverse color conversion process. As shown in this figure, according to the above synthesis method, self-similar images can be superimposed so as not to be visually recognized.

  Note that the method of combining the superimposed image data with the original image data as an electronic watermark image is not limited to the above-described method, and various conventionally known methods can be used. Further, the method for detecting the superimposed image data from the synthesized image data obtained by synthesizing the superimposed image data as a digital watermark image is not particularly limited. If the method is detected using a method corresponding to the synthesized method of the superimposed image data. Good.

  In this embodiment, the case where document image data is input from the image input device 3 or the communication device 5 has been described. However, the present invention is not limited to this. For example, when the document image data stored in the composite image storage unit 19 of the image processing device 3 is output after being subjected to scaling processing or changing the aspect ratio, the composite image data stored in the composite storage unit 19 is output. May be input to the document image processing unit 12 and the self-similar image detection unit 16, and the same processing as that performed when document image data is input from the image input device 3 or the communication device 5 may be performed. Further, image data read from other storage units provided in the image processing device 3 or various recording media detachably attached to the image processing device 3 is sent to the document image processing unit 12 and the self-similar image detection unit 16 as document images. It may be inputted as data, and the same processing as when the document image data is inputted from the image input device 3 or the communication device 5 may be performed.

  In the present embodiment, when the superimposed image data composed of self-similar images is combined with the document image data input to the image processing device 3, the image processing device 3 always renders the drawing size of the document image data and the document image. However, the present invention is not limited to this. For example, a self-similar image pattern that prohibits output is stored in advance, and it is determined whether or not the self-similar image combined with the document image data input to the image processing device 3 is a pattern that prohibits output. However, in the case of a prohibited pattern, the composite image data may not be created and output. In addition, a self-similar image pattern that does not allow output of composite image data but permits output of document image data that is not combined with superimposed image data is set in advance, and a self-similar image corresponding to the pattern is combined. When the original document image data is input, only the original image data may be output without combining the superimposed image data. Also, a document image data in which a self-similar image pattern and a user authentication information permitting the output of the composite image data only when the user authentication is successful is set in advance and the self-similar image corresponding to the pattern is synthesized. Is input, the user authentication process may be performed, and the composite image data may be output only when the user authentication is successful.

  Further, each unit (each block) of the image processing apparatus 3 may be realized by software using a processor such as a CPU. In this case, the image processing apparatus 3 includes a CPU (central processing unit) that executes instructions of a control program that realizes each function, a ROM (read only memory) that stores the program, and a RAM (random access memory) that expands the program. ), A storage device (recording medium) such as a memory for storing the program and various data. An object of the present invention is a recording medium on which a program code (execution format program, intermediate code program, source program) of a control program of the image processing apparatus 3 which is software that realizes the above-described functions is recorded so as to be readable by a computer. This is achieved by supplying the image processing apparatus 3 and reading and executing the program code recorded on the recording medium by the computer (or CPU or MPU).

  Examples of the recording medium include a tape system such as a magnetic tape and a cassette tape, a magnetic disk such as a floppy (registered trademark) disk / hard disk, and an optical disk such as a CD-ROM / MO / MD / DVD / CD-R. Card system such as IC card, IC card (including memory card) / optical card, or semiconductor memory system such as mask ROM / EPROM / EEPROM / flash ROM.

  Further, the image processing apparatus 3 may be configured to be connectable to a communication network, and the program code may be supplied via the communication network. The communication network is not particularly limited. For example, the Internet, intranet, extranet, LAN, ISDN, VAN, CATV communication network, virtual private network, telephone line network, mobile communication network, satellite communication. A net or the like is available. Further, the transmission medium constituting the communication network is not particularly limited. For example, even in the case of wired such as IEEE 1394, USB, power line carrier, cable TV line, telephone line, ADSL line, etc., infrared rays such as IrDA and remote control, Bluetooth ( (Registered trademark), 802.11 wireless, HDR, mobile phone network, satellite line, terrestrial digital network, and the like can also be used. The present invention can also be realized in the form of a computer data signal embedded in a carrier wave in which the program code is embodied by electronic transmission.

  In addition, each block of the image processing apparatus 3 is not limited to being realized using software, and may be configured by hardware logic. Hardware that performs a part of processing and hardware of the hardware It may be a combination of arithmetic means for executing software for performing control and remaining processing.

  The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope shown in the claims. That is, embodiments obtained by combining technical means appropriately modified within the scope of the claims are also included in the technical scope of the present invention.

  The present invention can be applied to an image processing apparatus and an image processing method for synthesizing superimposed image data, which is image data of a superimposed image drawn by superimposing the original image on image data of a document image.

1 Image forming device (image data output processing device)
2 Image input device 3 Image processing device 4 Image output device (image output unit)
5 Communication device 6 Operation panel 7 Main control unit 11 Control unit (size determining unit)
12 Document Image Processing Unit 13 Self-Similar Image Storage Unit 14 Self-Similar Image Selection Unit 15 Superposed Image Data Generation Unit 16 Self-Similar Image Detection Unit 17 Image Synthesis Unit 18 Output File Generation Unit 19 Composite Image Storage Unit

Claims (9)

An image processing apparatus that synthesizes superimposed image data that is image data of a superimposed image that is superimposed on the original image and that is drawn on the original image data that is image data of the original image,
At least one of a self-similar image storage unit storing a self-similar image pattern and a self-similar image detection unit detecting a pattern of the self-similar image combined with the document image data;
A superimposed image data generation unit configured to generate the superimposed image data including the self-similar image based on the pattern of the self-similar image;
An image composition unit that generates composite image data obtained by combining the document image data and the superimposed image data;
A size determining unit that determines a drawing size of the original image when drawing the original image,
The superimposed image data generation unit
An image processing apparatus, wherein the superimposed image data is generated by shaping a pattern of the self-similar image so that a size of the superimposed image becomes a size corresponding to the drawing size. The superimposed image data generation unit
2. The superimposed image data is generated by shaping a pattern of the self-similar image so that a shape and size of a minute portion included in the superimposed image is constant regardless of the drawing size. An image processing apparatus according to 1.   The said image composition part synthesize | combines the said superimposed image data with the said document image so that the said superimposed image is drawn as a background image at the time of drawing the said document image, The said document image is characterized by the above-mentioned. Image processing device.   The image composition unit synthesizes the superimposed image data with the document image data as an electronic watermark image that cannot be visually recognized by a user from an image drawn based on the composite image data. 2. The image processing apparatus according to 2. A self-similar image storage unit storing a self-similar image pattern;
5. The superimposed image data generation unit according to claim 1, wherein the superimposed image data generation unit generates the superimposed image data based on a pattern of a self-similar image read from the self-similar image storage unit. Image processing device. A self-similar image detecting unit for detecting a pattern of the self-similar image synthesized with the document image data,
The superimposed image data generation unit generates the superimposed image data based on the pattern of the self-similar image when the self-similar image detection unit detects the pattern of the self-similar image,
The image composition unit superimposes the superimposed image data generated by the superimposed image data generation unit on the document image data in place of the self-similar image synthesized with the document image data. The image processing apparatus according to any one of 1 to 5. A self-similar image detecting unit for detecting a pattern of the self-similar image synthesized with the document image data,
When the self-similar image detection unit detects the self-similar image pattern, the superimposed image data generation unit stores the self-similar image pattern corresponding to the self-similar image pattern in the self-similar image storage unit. The image processing apparatus according to claim 5, wherein the superimposed image data is generated based on a pattern of a self-similar image. An image processing apparatus according to any one of claims 1 to 7,
An image data output processing apparatus comprising: an image output unit that draws an image corresponding to the composite image data combined by the image processing apparatus. An image processing method for synthesizing superimposed image data, which is image data of a superimposed image that is superimposed on the original image and rendered on the original image data, which is image data of the original image,
A size determining step for determining a drawing size of the original image when the original image is drawn;
A superimposed image data generation step for generating the superimposed image data composed of the self-similar image based on a pre-stored pattern of the self-similar image or a pattern of the self-similar image synthesized in advance on the document image data;
An image composition step for generating composite image data obtained by combining the document image data and the superimposed image data,
In the superimposed image data generation step,
An image processing method, wherein the superimposed image data is generated by shaping a pattern of the self-similar image so that a size of the superimposed image becomes a size corresponding to the drawing size.